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Why do you use a pipe in a water supply network ? wire is the carrier of the current ( AMPERE ) which is necessary to run your electrical device whatever it is. Same as in water supply network , pipe is the carrier of the water
Think of Voltage as the pressure and Amperage (current) as flow. If you think of it as pipes with water then the pressure would be voltage, and current would be how much water flows past a certain point in the pipe in a given time.
A water pipe.
water pipe
1. Replace the pipe, 2. Shut off the water
Salt water is coductive.
Flow of electrons, the more there are the higher the current. Imagine water travelling through a pipe,.
The water comes from the homes hot water pipe and any dirt present will come from the dishes. It will be pumped out in the first rinse.The water comes from the homes hot water pipe and any dirt present will come from the dishes. It will be pumped out in the first rinse.
A pipe. The volume of water available can be compared to voltage. The diameter of pipe could be compared to resistance with smaller diameter being larger resistance and the flow of water past a point in pipe is equivalent to current flow.
There's a leak in the pipe.
when your engine is hot it causes the water to boil and the water and the anti freeze will come out of the overflow pipe.
Why do you use a pipe in a water supply network ? wire is the carrier of the current ( AMPERE ) which is necessary to run your electrical device whatever it is. Same as in water supply network , pipe is the carrier of the water
In a water system, the "voltage" is the water pressure, the flow rate is the "current", and the pipe size is the "resistance". Low-voltage electrical current is equivalent to low-pressure water.
Assuming you mean water in a pipe, the speed of the moving water can be changed by changing the pressure, the force pushing the water. It can also be changed by changing the characteristics of the pipe (larger, smoother inner walls, etc.)
Liken volt and amp to a water in a pipe. Voltage is the water pressure in the pipe and amperage is the water flow through the pipe. They are two completely different electrical units.
E=IxR E- Electromotive Force, measured with voltage - volt - v. I- Current, measured with amperage - amp - a. R- Resistance measured with ohms - (Greek omega symbol) Voltage = pressure. Current = flow. Resistance = opposition to flow such as wire size or load. If electricity was water then the water pump is the voltage. The water flowing through the pipe is the current and the size of the pipe is the resistance. Smaller pipe more resistance.
Voltage is like the pressure in your hose pipe. Current is the flow of charge and equivalent to the rate of flow of the water. Due to resistance to the water in the pipe,the pressure of the water will reduce along the length of the pipe but the quantity of litres flowing in the pipe will not change. So voltage will be maximum at the source of the voltage but as you move along the conductor there is voltage drop due to the resistance of the conductor.However, the current is same at all points along the conductor (the flow of charge is uniform at all points)